Synthesis, Antibacterial and Antiribosomal Activity of the 3C-Aminoalkyl Modification in the Ribofuranosyl Ring of Apralogs (5-O-Ribofuranosyl Apramycins)

Synthesis, Antibacterial and Antiribosomal Activity of the 3C-Aminoalkyl Modification in the Ribofuranosyl Ring of Apralogs (5-O-Ribofuranosyl Apramycins)

The synthesis and antiribosomal and antibacterial activity of both anomers of a novel apralog, 5-O-(5-amino-3-C-dimethylaminopropyl-D-ribofuranosyl)apramycin, are reported. Both anomers show excellent activity for the inhibition of bacterial ribosomes and that of MRSA and various wild-type Gram nega...

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Veröffentlicht in:Antibiotics (Basel) 2023-01, Vol.12 (1), p.25
Hauptverfasser: Lubriks, Dmitrijs, Haldimann, Klara, Hobbie, Sven N., Vasella, Andrea, Suna, Edgars, Crich, David
Format: Artikel
Sprache:eng
Schlagworte:
Alcohol
aminoglycoside antibiotics
aminoglycoside modifying enzymes
Aminoglycosides
Antibacterial activity
antibacterials
antiribosomal activity
Apramycin
Bacteria
Drug resistance
E coli
Pathogens
Protein synthesis
Proteins
ribosomal methyltransferases
Ribosomes
Staphylococcus infections
Synthesis
Zeolites
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Zusammenfassung:The synthesis and antiribosomal and antibacterial activity of both anomers of a novel apralog, 5-O-(5-amino-3-C-dimethylaminopropyl-D-ribofuranosyl)apramycin, are reported. Both anomers show excellent activity for the inhibition of bacterial ribosomes and that of MRSA and various wild-type Gram negative pathogens. The new compounds retain activity in the presence of the aminoglycoside phosphoryltransferase aminoglycoside modifying enzymes that act on the primary hydroxy group of typical 4,5-(2-deoxystreptamine)-type aminoglycoside and related apramycin derivatives. Unexpectedly, the two anomers have comparable activity both for the inhibition of bacterial ribosomes and of the various bacterial strains tested.
ISSN:2079-6382
2079-6382
DOI:10.3390/antibiotics12010025